Abstract This contribution describes the ocean biogeochemical component of the Geophysical Fluid Dynamics Laboratory's Earth System Model 4.1 (GFDL‐ESM4.1), assesses GFDL‐ESM4.1's capacity to capture observed ocean biogeochemical patterns, and documents its response to increasing atmospheric CO2. Notable differences relative to the previous generation of GFDL ESM's include enhanced resolution of plankton food web dynamics, refined particle remineralization, and a larger number of exchanges of nutrients across Earth system components. During model spin‐up, the carbon drift rapidly fell below the 10 Pg C per century equilibration criterion established by the Coupled Climate‐Carbon Cycle Model Intercomparison Project (C4MIP). Simulations robus...
Modeling has emerged as a critical tool to investigate a wide range of biogeochemical and ecological...
The purpose of this review is to discuss the critical gaps in our knowledge of ocean dynamics and bi...
Ocean carbon uptake and storage simulated by the Community Earth System Model, version 1-Biogeochemi...
Abstract Simulation of coupled carbon‐climate requires representation of ocean carbon cycling, but t...
We have extended the 3-D ocean based "Grid ENabled Integrated Earth system model'' (GENIE-1) to help...
The Earth's oceans are one of the largest sinks in the Earth system for anthropogenic CO2 emissions,...
Ecosystem processes are important determinants of the biogeochemistry of the ocean, and they can be ...
We develop an ocean general circulation model which includes biogeochemical processes (biogeochemica...
We discuss the potential variations of the biological pump that can be expected from a change in the...
This is the underlying dataset of the publication "Ocean biogeochemistry in the coupled ocean–sea ic...
Present and future changes to the ocean organic carbon and carbonate pumps are and will continue to ...
The authors describe carbon system formulation and simulation characteristics of two new global coup...
The authors compare Community Earth System Model results to marine observations for the 1990s and ex...
We present results obtained with SWAMCO-4, a complex model of the marine planktonic system calculati...
The ocean carbon cycle plays a fundamental role in the Earth’s climate system, on decadal to multi-m...
Modeling has emerged as a critical tool to investigate a wide range of biogeochemical and ecological...
The purpose of this review is to discuss the critical gaps in our knowledge of ocean dynamics and bi...
Ocean carbon uptake and storage simulated by the Community Earth System Model, version 1-Biogeochemi...
Abstract Simulation of coupled carbon‐climate requires representation of ocean carbon cycling, but t...
We have extended the 3-D ocean based "Grid ENabled Integrated Earth system model'' (GENIE-1) to help...
The Earth's oceans are one of the largest sinks in the Earth system for anthropogenic CO2 emissions,...
Ecosystem processes are important determinants of the biogeochemistry of the ocean, and they can be ...
We develop an ocean general circulation model which includes biogeochemical processes (biogeochemica...
We discuss the potential variations of the biological pump that can be expected from a change in the...
This is the underlying dataset of the publication "Ocean biogeochemistry in the coupled ocean–sea ic...
Present and future changes to the ocean organic carbon and carbonate pumps are and will continue to ...
The authors describe carbon system formulation and simulation characteristics of two new global coup...
The authors compare Community Earth System Model results to marine observations for the 1990s and ex...
We present results obtained with SWAMCO-4, a complex model of the marine planktonic system calculati...
The ocean carbon cycle plays a fundamental role in the Earth’s climate system, on decadal to multi-m...
Modeling has emerged as a critical tool to investigate a wide range of biogeochemical and ecological...
The purpose of this review is to discuss the critical gaps in our knowledge of ocean dynamics and bi...
Ocean carbon uptake and storage simulated by the Community Earth System Model, version 1-Biogeochemi...